BackgroudInterleukin-10(IL-10) is a multifunctional cytokine with both immunosuppressive and antiangiogenic functions. Polymorphisms in the IL-10 gene promoter genetically determine interindividual differences in IL-10 production. This study was performed to determined whether polymorphisms in the IL-10 gene promoter were associated with breast cancer in a Chinese Han population.MethodsWe genotyped 315 patients with breast cancer and 322 healthy control subjects for -1082A/G, -819T/C and -592A/C single nucleotide polymorphisms in the promoter region of the IL-10 gene by polymerase chain reactionerestriction fragment length polymorphism (PCR-RFLP).ResultsThere were no significant differences in genotype, allele, or haplotype frequencies in all three loci between patients and healthy controls. Analysis of breast cancer prognostic and predictive factors revealed that the -1082AA genotype was associated with a significantly increased risk of lymph node (LN) involvement (P = 0.041) and larger tumor size (P = 0.039) at the time of diagnosis. Furthermore, in the haplotype analysis of IL-10 gene, we found that patients carrying ATA haplotype were in higher LN involvement (p = 0.022) and higher tumor stage(p = 0.028) of breast cancer at the time of diagnosis compared with others.ConclusionsOur findings suggest that IL-10 promoter polymorphisms participate in the progression of breast cancer rather than in its initial development in Chinese Han women.
1049 Background: HER2 is an effective therapeutic target for breast and gastric cancer. A166 is an antibody-drug conjugate composed of a novel cytotoxic drug site-specifically conjugated to transtuzumab sequence via a stable protease-cleavable valine citrulline linker. Methods: This was a single arm, open-label, multicenter, dose escalating Phase 1 first-in-human study of A166 as monotherapy in solid tumor patients. Dose escalation and MTD identification was directed using a Bayesian logistic regression model with overdose control. The following dose levels were evaluated in this study: 0.3, 1.2, 3.6, 4.8 mg/kg. (ClinicalTrials.gov NCT03602079) Results: As of November 1, 2019 35 pts have completed the DLT evaluation period across 4 dose levels. Overall, A166 had an acceptable toxicity profile with no unexpected toxicities related to the study drug. No adverse events recorded met the protocol specified definition of a dose limiting toxicity at any studied dose level. Most frequently (≥10%) occurring TEAEs include were Keratitis, Decreased appetite, Dry eye, Vision blurred etc. Overall incidence of ophthalmic toxicities in the 3.6 mg/kg cohort was 80% and in the 4.8 mg/kg cohort it was 83%. Among the 27 patients evaluable for efficacy, best response was progression of disease in 11 patients (41%), stable disease in 9 patients (33%) and partial response in 7 patients (26%), for the total disease control rate of 59%.Responses were seen only at the dose levels of 3.6 mg/kg and 4.8 mg/kg. Conclusions: A166 demonstrated clinically meaningful efficacy in heavily pretreated patients with relapsed or refractory advanced solid cancers. The achievement of an ORR of 36% at efficacious dose levels and up to 100% in HER2 positive patients regardless of histology (2 CRC, 1 BC and 1 NSCLC) at the highest studied dose level exceed Clinical trial information: NCT03602079 .
The Nectin cell adhesion molecule (Nectin) family members are Ca 2+ -independent immunoglobulin-like cellular adhesion molecules (including Nectins 1-4), involved in cell adhesion via homophilic/heterophilic interplay. In addition, the Nectin family plays a significant role in enhancing cellular viability and movement ability. In contrast to enrichment of Nectins 1-3 in normal tissues, Nectin-4 is particularly overexpressed in a number of tumor types, including breast, lung, urothelial, colorectal, pancreatic and ovarian cancer. Moreover, the upregulation of Nectin-4 is an independent biomarker for overall survival in numerous cancer types. A large number of studies have revealed that high expression of Nectin-4 is closely related to tumor occurrence and development in various cancer types, but the manner in which Nectin-4 protein contributes to the onset and development of these malignancies is yet unknown. The present review summarizes the molecular mechanisms and functions of Nectin-4 protein in the biological processes and current advances with regard to its expression and regulation in various cancer types. Contents 1. Introduction 2. Molecular structures of Nectin family members 3. Nectin-induced signaling during the formation of cell-cell junctions 4. Distribution and physiological function of Nectins 5. Biological role of Nectin-4 proteins in cancer 6. Nectin-4 serves as a prognostic or diagnostic marker for selected types of cancer 7. Enfortumab vedotin (EV) 8. Oncolytic virus 9. Conclusion
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